CN116373183A - Surface polishing device for glass fiber reinforced plastic pipeline processing - Google Patents

Abstract

The invention belongs to the technical field of glass fiber reinforced plastic pipeline processing, and particularly relates to a surface polishing device for glass fiber reinforced plastic pipeline processing, which comprises a round bearing table, a round top supporting plate, a lifting control mechanism, a working opening and closing mechanism and a dust collection mechanism; the lifting control mechanism, the working opening and closing mechanism and the dust collection mechanism creatively provide the technical effects of polishing the periphery and the inside of the steel pipeline, improving the polishing work effect, controlling the polishing work by utilizing the mechanical principle among devices, releasing the work redundancy of processing personnel and improving the working environment by solving the problems that manual polishing is low in work efficiency, scrapping the steel pipeline due to excessive processing, influencing the body due to the fact that generated metal impurities are sucked into the body and the like.

Description

Surface polishing device for glass fiber reinforced plastic pipeline processing

Technical Field

The invention belongs to the technical field of glass fiber reinforced plastic pipeline processing, and particularly relates to a surface polishing device for glass fiber reinforced plastic pipeline processing.

Background

In the process of steel pipe processing, the steps of die casting, cooling, scrap removal, polishing and the like are needed to be sequentially carried out, wherein in the polishing processing step, as a plurality of burrs are needed to be removed, the following problems remain to be solved:

A. most of traditional polishing work is performed manually by manual polishing, the surface of the steel pipeline is repeatedly rubbed back and forth, time and physical strength are wasted, and meanwhile, the inner wall of the steel pipeline sometimes cannot be effectively polished, so that the polishing work efficiency is affected;

B. the existing polishing device has a plurality of control mechanisms, but the control mechanisms are controlled manually, so that the working strength of workers is increased intangibly, the working efficiency is reduced, the phenomenon of excessive treatment on the steel pipeline is easy to occur, and the steel pipeline is scrapped;

C. in the work of polishing the steel pipe, impurities such as metal chips and the like are generated, the working environment is polluted, and if the impurities such as the metal chips and the like are sucked into a human body, the body health of an operator is seriously affected.

Disclosure of Invention

Aiming at the situation, the invention provides a surface polishing device for glass fiber reinforced plastic pipeline processing, which aims to solve the problems of manual polishing, low working efficiency, scrapping of the steel pipeline caused by excessive processing of the steel pipeline, influence of generated metal impurities sucked into the body and the like.

The technical scheme adopted by the invention is as follows: the invention provides a surface polishing device for glass fiber reinforced plastic pipeline processing, which comprises a round bearing table, a round top supporting plate, a lifting control mechanism, a working opening and closing mechanism and a dust collection mechanism, wherein the working opening and closing mechanism is arranged on the surface of the top of the round bearing table, the lifting control mechanism is arranged on the bottom surface of the round bearing table, the dust collection mechanism is arranged on the top of the round top supporting plate, the working of a speed reducing servo motor can be controlled through the working opening and closing mechanism only by controlling the forward and reverse rotation direction of a forward and reverse rotation speed motor, the working of the dust collection mechanism can be controlled through the working opening and closing mechanism, the workload of a processor is reduced, the lifting control mechanism controls the depth of a general polishing scraper blade entering the steel pipeline body, the polishing work is conveniently carried out on the inner wall of the steel pipeline body, dust and other impurities generated during the polishing work are adsorbed by the dust collection mechanism, and the working environment of the processor can be improved.

Further, work closing mechanism includes bar spout, rectangle slip loading board, extension spring one, removes baffle one and speed reduction servo motor control switch, bar spout has been seted up on the surface at circular loading table top, the rectangle slip loading board of looks adaptation has been placed to the inside of bar spout, extension spring one is installed to one side of rectangle slip loading board outer wall, remove baffle one is installed to the other end of extension spring one, the bottom of removing baffle one slides in the inside of bar spout, speed reduction servo motor control switch is installed to one side of bar spout inner wall, and rectangle slip loading board slides in the inside of bar spout to rectangle slip loading board can drive to remove baffle one and extrude and release to speed reduction servo motor control switch, and the extension spring releases the elastic potential energy that will produce through the motion of self original state in a moment, and then alleviates the pressure that removes baffle one and bring.

Preferably, the top of rectangle slip loading board is equipped with speed reduction servo motor, speed reduction servo motor's output fixedly connected with rotation dead lever one, rotation dead lever one's outer wall is equipped with the same transverse connection dead lever of a plurality of group sizes, rotation dead lever one's outside is equipped with the rotatory urceolus of looks adaptation one, the other end welding of transverse connection dead lever is in the inner wall of rotatory urceolus one, the outer wall welding of rotatory urceolus one has the general scraper blade one of polishing of a plurality of group sizes the same, and general scraper blade one that uses in this application is prior art, and this product can be carried out corresponding improvement in actual application in-process to operating personnel here and is nevertheless recited, through the speed reduction servo motor who places in rectangle slip loading board top, can drive general scraper blade one and polish work around the outer wall of steel-pipe line body.

As a further preferred mode of the invention, the lifting control mechanism comprises a forward and reverse rotation speed reducing motor, a round thread lifting sleeve, a connecting stretching rod and an electric telescopic connecting rod, wherein the forward and reverse rotation speed reducing motor is arranged in the middle of the bottom of the round bearing table, the output end of the forward and reverse rotation speed reducing motor penetrates through the bottom of the round bearing table and extends to the upper side of the round bearing table, the output end of the forward and reverse rotation speed reducing motor is fixedly connected with a thread rotating shaft, the outer wall of the thread rotating shaft is sleeved with a matched fixing nut, the outer wall of the fixing nut is sleeved with the round thread lifting sleeve, the outer wall of the round thread lifting sleeve is provided with the connecting stretching rod, the other end of the connecting stretching rod is welded to one end of the top surface of the rectangular sliding bearing plate, the forward and reverse rotation speed reducing motor rotates forward and drives the round thread lifting sleeve to descend through the thread rotating shaft, the round thread lifting sleeve can drive the rectangular sliding bearing plate to slide in the strip-shaped chute in the descending process, the rectangular sliding bearing plate can approach the control switch of the speed-reducing servo motor until the movable baffle plate contacts the control switch of the speed-reducing servo motor, so that the speed-reducing servo motor is started, the steel pipe body is polished, the forward and reverse rotation speed-reducing motor is reversed, the round thread lifting sleeve is driven to ascend by the thread rotating shaft, the rectangular sliding bearing plate can be driven to slide in the strip-shaped chute in the ascending process, the rectangular sliding bearing plate is far away from the control switch of the speed-reducing servo motor until the movable baffle plate leaves the control switch of the speed-reducing servo motor, the speed-reducing servo motor is closed, the steel pipe body is polished, the forward and reverse rotation speed-reducing motor is closed at the moment, this operation can reduce the workload of the operator.

Further, the structural shape of electric telescopic connecting rod sets up to L shape, electric telescopic connecting rod's stiff end welding is in the bottom surface of circular plummer, electric telescopic connecting rod's flexible end is equipped with circular loss prevention baffle, circular loss prevention baffle's bottom is equipped with gear-down servo motor, gear-down servo motor's output fixedly connected with rotation dead lever second, rotation dead lever second's outer wall cover is equipped with matched with rotatory urceolus second, rotation urceolus second's outer wall welding has the general scraper blade second of polishing of a plurality of group size, starts electric telescopic connecting rod and will rotate urceolus second and go deep into the inside of steel-pipe way body, and the internal diameter of the steel-pipe way that needs to remove thorn can be greater than the external diameter of rotatory urceolus second in this application, is convenient for rotate urceolus second like this and goes up and down in the inside of steel-pipe way, when moving baffle first contact gear-down servo motor control switch, just can start here gear-down servo motor, has played the omnidirectional work of polishing to the steel-pipe way body.

Preferably, the material standing groove has been seted up on the surface at circular plummer top, the steel-pipe way body of looks adaptation has been placed to the inside of material standing groove, electric telescopic connecting rod's output sets up in the top of steel-pipe way body, general scraper blade second of polishing and the inner wall cooperation work of steel-pipe way body, the material standing groove that adopts in this application is in steel-pipe way body looks adaptation, operating personnel can change according to concrete actual production, electric telescopic connecting rod's initial state can be with the top of rotatory urceolus second lifting to the steel-pipe way body, can not influence the placing of steel-pipe way body, avoid the steel-pipe way body to place into the inside inconvenient operation of material standing groove, after the steel-pipe way body is placed, alright start electric telescopic connecting rod and drive rotatory urceolus second and go deep into the inside of steel-pipe way body.

As a further preferred aspect of the present invention, the dust suction mechanism includes a fixed sleeve pipe, an impurity collecting working box, an impurity transporting connecting pipe, a rectangular dust collecting cover and a pipe fitting through hole, the impurity collecting working box is placed at the top of the circular top supporting plate, the bottom of the circular top supporting plate is provided with a pipe fitting through hole adapted to the impurity transporting connecting pipe, the bottom of the impurity collecting working box is communicated with the impurity transporting connecting pipe, the other end of the impurity transporting connecting pipe is communicated with the inside of the rectangular dust collecting cover, the impurity collecting working box belongs to the prior art, a dust suction pump is installed inside, here too much description is made, some impurity dust is generated in polishing work, the impurity collecting working box conveys the impurity dust to the inside of the impurity collecting working box through the rectangular dust collecting cover and the impurity transporting connecting pipe to wait for later workers to process, the working environment of operators can be improved, when the forward and backward rotation of the speed reducing motor is performed, when the forward and backward rotation of the speed reducing motor is reversed, the dust suction mechanism stops working, and the operators do not need to manually switch to operate.

Further, the one end of circular plummer bottom is equipped with L shape fixed pipe, the inside of L shape fixed pipe is equipped with the switch of impurity collection work box, the bottom of rectangle slip loading board be equipped with the L shape removal dead lever of the internal diameter looks adaptation of L shape fixed pipe, one side of L shape removal dead lever outer wall is equipped with extension spring two, extension spring two's the other end is equipped with and removes baffle two, and L shape removes the dead lever and can follow rectangle slip loading board and remove, and when positive and negative gear motor corotation, rectangle slip loading board can drive L shape removal dead lever and remove to the inside of L shape fixed pipe, and when removing baffle two and be close to the switch of impurity collection work box, can start the work of impurity collection work box, and when positive and negative gear motor contra-rotation, rectangle slip loading board can drive L shape removal dead lever and remove to the outside of L shape fixed pipe, when removing baffle two and keeping away from the switch of impurity collection work box, can close the work of impurity collection work box, saves the manpower, makes things convenient for work progress.

As a further preferred mode of the invention, a working control panel is arranged on one side of the outer wall of the circular bearing table, the forward and reverse rotation speed reducing motor and the electric telescopic connecting rod are electrically connected with the working control panel through conducting wires, a power switch of the impurity collecting working box is electrically connected with the impurity collecting working box through the conducting wires, the speed reducing servo motor is electrically connected with a speed reducing servo motor control switch through the conducting wires, the forward and reverse rotation speed reducing motor and the electric telescopic connecting rod are controlled and operated through the working control panel, the whole operation is convenient, the impurity collecting working box is controlled and connected with the power switch of the impurity collecting working box, the speed reducing servo motor is controlled and connected with the speed reducing servo motor control switch, the two control connections do not need to be controlled manually, and the impurity collecting working box can work by oneself, and the workload of operators is reduced.

Preferably, the four corners of the bottom surface of the circular bearing table are welded with supporting fixing columns, the four structural shapes of the supporting fixing columns are cylindrical, the bottoms of the supporting fixing columns are provided with matched bottom anti-slip pads, the bottoms of the bottom anti-slip pads are provided with anti-slip patterns, the certain supporting bearing capacity of the device can be improved, meanwhile, the stability of the polishing working is improved, and the translation condition of the device is reduced.

The beneficial effects obtained by the invention by adopting the structure are as follows:

(1) The working of the speed reducing servo motor can be controlled through the working opening and closing mechanism only by controlling the forward and reverse rotation direction of the forward and reverse rotation speed motor, the working of the dust collection mechanism can be controlled through the working opening and closing mechanism, the workload of a processing person is reduced, the lifting control mechanism controls the depth of the general polishing scraper blade entering the steel pipe body, the inner wall of the steel pipe body is convenient to polish, dust and other impurities generated during polishing are adsorbed by the dust collection mechanism, and the working environment of the processing person can be improved;

(2) The rectangular sliding bearing plate slides in the strip-shaped chute, so that the rectangular sliding bearing plate can drive the first movable baffle plate to extrude and release the control switch of the speed-reducing servo motor, the first stretching spring and the second stretching spring can release generated elastic potential energy through the movement of the first stretching spring and the second stretching spring in the original state, and the pressure brought by the first movable baffle plate and the second movable baffle plate is relieved;

(3) The speed reduction servo motor is arranged at the top of the rectangular sliding bearing plate and can drive the universal polishing scraper blade to polish the periphery of the outer wall of the pair of steel pipeline bodies, and the speed reduction servo motor is arranged at the bottom end of the electric telescopic connecting rod and can drive the universal polishing scraper blade to polish the inner wall of the pair of steel pipeline bodies, so that the omnibearing work of the steel pipeline bodies is realized, and the polishing work effect is improved;

(4) The forward and backward rotation gear motor rotates forward, the round thread lifting sleeve is driven to descend through the thread rotating shaft, the rectangular sliding bearing plate is driven to slide in the strip-shaped chute in the descending process of the round thread lifting sleeve, the rectangular sliding bearing plate is close to the gear-reduction servo motor control switch until the movable baffle plate contacts the gear-reduction servo motor control switch, so that the gear-reduction servo motor is started, the steel pipe body is polished, the forward and backward rotation gear motor rotates reversely, the round thread lifting sleeve is driven to ascend through the thread rotating shaft, the rectangular sliding bearing plate is driven to slide in the strip-shaped chute in the ascending process of the round thread lifting sleeve, the rectangular sliding bearing plate is far away from the gear-reduction servo motor control switch until the movable baffle plate leaves the gear-reduction servo motor control switch, the gear-reduction servo motor is closed, and polishing of the steel pipe body is stopped, and the forward and backward rotation gear motor is closed at the moment, so that the workload of operators can be reduced;

(5) Starting an electric telescopic connecting rod to extend the second rotary outer cylinder into the steel pipe body, wherein the inner diameter of the steel pipe needing to be subjected to deburring in the application is larger than the outer diameter of the second rotary outer cylinder, so that the second rotary outer cylinder is convenient to lift in the steel pipe, and when the first movable baffle contacts with a control switch of a speed reduction servo motor, the speed reduction servo motor at the position is started, so that the omnibearing polishing work of the steel pipe body is realized;

(6) The initial state of the electric telescopic connecting rod can lift the second rotary outer cylinder to the upper side of the steel pipe body, the placement of the steel pipe body is not affected, the inconvenience in the operation that the steel pipe body is placed into the material placement groove is avoided, and after the steel pipe body is placed, the electric telescopic connecting rod can be started to drive the second rotary outer cylinder to penetrate into the steel pipe body;

(7) Some impurity dust floats in the air during polishing, the impurity collecting working box conveys the impurity dust to the inside of the impurity collecting working box through the rectangular dust collecting cover and the impurity conveying connecting pipe to wait for later-stage working personnel to process, the working environment of the operating personnel can be improved, when the forward and reverse rotation speed reducing motor rotates forward, the dust collecting mechanism works through a power switch of the impurity collecting working box, and when the forward and reverse rotation speed reducing motor rotates reversely, the dust collecting mechanism stops working, and the operating personnel is not required to manually go to switch;

(8) The L-shaped movable fixing rod moves along with the rectangular sliding bearing plate, when the forward and reverse rotation speed reducing motor rotates forward, the rectangular sliding bearing plate can drive the L-shaped movable fixing rod to move towards the inside of the L-shaped fixed pipe, when the movable baffle II is close to a power switch of the impurity collection working box, the work of the impurity collection working box can be started, when the forward and reverse rotation speed reducing motor rotates reversely, the rectangular sliding bearing plate can drive the L-shaped movable fixing rod to move towards the outside of the L-shaped fixed pipe, and when the movable baffle II is far away from the power switch of the impurity collection working box, the work of the impurity collection working box can be closed, the labor is saved, and the working process is convenient;

(9) The positive and negative rotation gear motor and the electric telescopic connecting rod are controlled and operated through the work control panel, so that the whole operation is convenient, the impurity collection working box is controlled and connected with a power switch of the impurity collection working box, the gear servo motor is controlled and connected with a control switch of the gear servo motor, the two control connections do not need to be controlled manually, the automatic work can be realized, and the workload of operators is reduced;

(10) The device can improve certain supporting and bearing capacity, improve stability during polishing operation, and reduce translation of the device.

Drawings

FIG. 1 is a perspective view of a surface polishing device for glass fiber reinforced plastic pipeline processing, which is provided by the invention;

FIG. 2 is a front view of a surface polishing device for glass fiber reinforced plastic pipeline processing according to the present invention;

FIG. 3 is a side view of a surface polishing device for glass fiber reinforced plastic pipeline processing according to the present invention;

FIG. 4 is a top view of a surface polishing device for glass fiber reinforced plastic pipeline processing according to the present invention;

FIG. 5 is a cross-sectional view taken along section line A-A of FIG. 2;

FIG. 6 is a cross-sectional view taken along section line B-B in FIG. 3;

FIG. 7 is a cross-sectional view taken along section line C-C in FIG. 4;

FIG. 8 is an enlarged view of a portion of the portion I of FIG. 5;

FIG. 9 is an enlarged view of a portion of the portion II of FIG. 5;

fig. 10 is an enlarged view of a portion at iii in fig. 7.

1, a circular bearing table; 2. supporting the fixed column; 3. a bottom anti-slip pad; 4. a work control panel; 5. a forward and reverse rotation speed reducing motor; 6. a threaded rotating shaft; 7. a circular thread lifting sleeve; 8. a fixing nut; 9. connecting a stretching rod; 10. a deceleration servo motor; 11. rotating the first fixed rod; 12. the transverse connecting fixing rod; 13. rotating the first outer cylinder; 14. a general polishing scraping blade I; 15. a strip-shaped chute; 16. a rectangular sliding bearing plate; 17. a tension spring I; 18. moving a first baffle; 19. a speed reducing servo motor control switch; 20. a material placement groove; 21. a steel pipe body; 22. an electric telescopic connecting rod; 23. rotating the second fixed rod; 24. rotating the second outer cylinder; 25. a general polishing doctor blade II; 26. a circular damage-preventing baffle; 27. fixing the sleeve pipe; 28. a circular top support plate; 29. an impurity collection working box; 30. an impurity delivery connection tube; 31. a rectangular dust collection cover; 32. a tube through hole; 33. an L-shaped fixing tube; 34. a power switch of the impurity collection working box; 35. a second stretching spring; 36. a second movable baffle; 37. an L-shaped movable fixing rod; 38. a lifting control mechanism; 39. a working opening and closing mechanism; 40. a dust collection mechanism.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1, fig. 6, fig. 7, fig. 9 and fig. 10, the working opening and closing mechanism 39 comprises a bar-shaped chute 15, a rectangular sliding bearing plate 16, a first extension spring 17, a first movable baffle plate 18 and a speed reduction servo motor control switch 19, the surface of the top of the circular bearing table 1 is provided with the bar-shaped chute 15, the rectangular sliding bearing plate 16 which is matched with the inside of the bar-shaped chute 15 is placed in the bar-shaped chute 15, the first extension spring 17 is installed on one side of the outer wall of the rectangular sliding bearing plate 16, the first movable baffle plate 18 is installed on the other end of the first extension spring 17, the bottom end of the first movable baffle plate 18 slides in the inside of the bar-shaped chute 15, the speed reduction servo motor control switch 19 is installed on one side of the inner wall of the bar-shaped chute 15, the rectangular sliding bearing plate 16 slides in the inside of the bar-shaped chute 15, so that the first movable baffle plate 18 can be driven by the rectangular sliding bearing plate 16 to squeeze and release the speed reduction servo motor 10 control switch, and the first extension spring 17 can release generated elastic potential energy through the movement in the original state of the self, and the pressure brought by the movable baffle plate 18 can be relieved.

As shown in fig. 1, 2, 3, 5, 6 and 7, the lifting control mechanism 38 comprises a forward and reverse rotation speed reducing motor 5, a circular thread lifting sleeve 7, a connecting stretching rod 9 and an electric telescopic connecting rod 22, the middle of the bottom of the circular bearing table 1 is provided with the forward and reverse rotation speed reducing motor 5, the output end of the forward and reverse rotation speed reducing motor 5 penetrates through the bottom of the circular bearing table 1 and extends to the upper side of the circular bearing table 1, the output end of the forward and reverse rotation speed reducing motor 5 is fixedly connected with a thread rotating shaft 6, the outer wall of the thread rotating shaft 6 is sleeved with a matched fixing nut 8, the outer wall of the fixing nut 8 is sleeved with the circular thread lifting sleeve 7, the outer wall of the circular thread lifting sleeve 7 is provided with the connecting stretching rod 9, the other end of the connecting stretching rod 9 is welded at one end of the top surface of the rectangular sliding bearing plate 16, the forward and reverse rotation speed reducing motor 5 rotates forward, the circular thread lifting sleeve 7 is driven to descend through the thread rotating shaft 6, the rectangular sliding bearing plate 16 is driven to slide in the strip-shaped chute 15 in the descending process of the circular thread lifting sleeve 7, the rectangular sliding bearing plate 16 is close to the control switch of the speed reduction servo motor 10 until the first movable baffle 18 contacts the control switch of the speed reduction servo motor 10, so that the speed reduction servo motor 10 is started, the steel pipe body 21 is polished, the forward and reverse rotation speed reduction motor 5 is reversed, the circular thread lifting sleeve 7 is driven to ascend through the thread rotating shaft 6, the rectangular sliding bearing plate 16 is driven to slide in the strip-shaped chute 15 in the ascending process of the circular thread lifting sleeve 7, the rectangular sliding bearing plate 16 is far away from the control switch of the speed reduction servo motor 10 until the first movable baffle 18 leaves the control switch of the speed reduction servo motor 10, so that the speed reduction servo motor 10 is closed, and the polishing operation of the steel pipe body 21 is stopped, and the forward and reverse rotation gear motor 5 is turned off at this time, so that the workload of operators can be reduced.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, the dust collection mechanism 40 comprises a fixed sleeve 27, an impurity collection working box 29, an impurity conveying connecting pipe 30, a rectangular dust collection working box 31 and a pipe through hole 32, the impurity collection working box 29 is placed on the top of the circular top supporting plate 28, the pipe through hole 32 matched with the impurity conveying connecting pipe 30 is formed in the bottom of the circular top supporting plate 28, the impurity conveying connecting pipe 30 is communicated with the bottom of the impurity collection working box 29, the other end of the impurity conveying connecting pipe 30 is communicated with the inside of the rectangular dust collection working box 31, the impurity collection working box 29 belongs to the prior art, a dust collection pump is installed in the inside, a dust collection working box 29 is excessively described here, some impurity dust can be generated in polishing work, the impurity collection working box 29 conveys the impurity dust to the inside of the impurity collection working box 29 through the rectangular dust collection working box 31 and the impurity conveying connecting pipe 30 for waiting for later-period staff to process, the working environment of the staff can be improved, when the speed reduction motor 5 rotates positively and negatively, the dust collection working mechanism 40 can work through a power switch of the impurity collection working box 29, when the speed reduction motor 5 rotates positively and negatively, the dust collection working mechanism 40 stops working, and the operator does not need to operate the operation switch.

As shown in fig. 1, fig. 2, fig. 4 and fig. 6, a surface polishing device for glass fiber reinforced plastic pipeline processing comprises a circular bearing table 1, a circular top supporting plate 28, a lifting control mechanism 38, a working opening and closing mechanism 39 and a dust collection mechanism 40, wherein the working opening and closing mechanism 39 is arranged on the surface of the top of the circular bearing table 1, the lifting control mechanism 38 is arranged on the bottom surface of the circular bearing table 1, the dust collection mechanism 40 is arranged on the top of the circular top supporting plate 28, the working of the speed reduction servo motor 10 can be controlled through the working opening and closing mechanism 39 only by controlling the forward and backward rotation direction of a forward and backward rotation motor, the working of the dust collection mechanism 40 can be controlled through the working opening and closing mechanism 39, the workload of a processor is reduced, the lifting control mechanism 38 controls the depth of the general polishing scraper blade 14 entering the steel pipeline body 21, the inner wall of the steel pipeline body 21 is convenient to polish, dust and other impurities generated during polishing can be adsorbed by the dust collection mechanism 40, and the working environment of the processor can be improved.

As shown in fig. 1 to 6, the structural shape of the electric telescopic connecting rod 22 is set to be L-shaped, the fixed end of the electric telescopic connecting rod 22 is welded on the bottom surface of the circular bearing table 1, the telescopic end of the electric telescopic connecting rod 22 is provided with a circular damage-preventing baffle 26, the bottom of the circular damage-preventing baffle 26 is provided with a speed reduction servo motor 10, the output end of the speed reduction servo motor 10 is fixedly connected with a rotary fixing rod II 23, the outer wall of the rotary fixing rod II 23 is sleeved with a rotary outer cylinder II 24 which is matched with the rotary outer cylinder II, a plurality of groups of universal polishing scraping blades II 25 with the same size are welded on the outer wall of the rotary outer cylinder II 24, the electric telescopic connecting rod 22 is started to extend the rotary outer cylinder II into the steel pipe body 21, the inner diameter of the steel pipe to be polished in the application can be larger than the outer diameter of the rotary outer cylinder II 24, so that the rotary outer cylinder II 24 is convenient to lift in the steel pipe, the speed reduction servo motor 10 is started to polish the steel pipe body 21 when the movable baffle I18 contacts with a speed reduction servo motor 10 control switch, the speed reduction servo motor 10 is started to polish the inside the steel pipe body 21, the steel pipe body 21 is polished and the steel pipe body 21 is removed.

As shown in fig. 1, 2 and 8, one end of the bottom of the circular bearing table 1 is provided with an L-shaped fixed pipe 33, the inside of the L-shaped fixed pipe 33 is provided with a power switch 34 of an impurity collecting working box, the bottom of the rectangular sliding bearing plate 16 is provided with an L-shaped movable fixed rod 37 which is matched with the inner diameter of the L-shaped fixed pipe 33, one side of the outer wall of the L-shaped movable fixed rod 37 is provided with a second extension spring 35, the other end of the second extension spring 35 is provided with a second movable baffle 36, the L-shaped movable fixed rod 37 moves along with the rectangular sliding bearing plate 16, when the forward and backward rotation speed reducing motor 5 positively rotates, the rectangular sliding bearing plate 16 drives the L-shaped movable fixed rod 37 to move towards the inside of the L-shaped fixed pipe 33, when the second movable baffle 36 approaches to the power switch of the impurity collecting working box 29, the rectangular sliding bearing plate 16 drives the L-shaped movable fixed rod 37 to move towards the outside of the L-shaped fixed pipe 33, and when the second movable baffle 36 is far away from the power switch of the impurity collecting working box 29, the work of the work box 29 is closed, and the labor is saved.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 8, fig. 9 and fig. 10, the work control panel 4 is installed on one side of the outer wall of the circular bearing table 1, the forward and reverse rotation gear motor 5 and the electric telescopic connecting rod 22 are electrically connected with the work control panel 4 through conducting wires, the power switch 34 of the impurity collection working box is electrically connected with the impurity collection working box 29 through conducting wires, the gear reduction servo motor 10 is electrically connected with the gear reduction servo motor control switch 19 through conducting wires, the forward and reverse rotation gear motor 5 and the electric telescopic connecting rod 22 are controlled and operated through the work control panel 4, the whole operation is convenient, the control connection between the gear reduction servo motor 10 and the gear reduction servo motor 10 is controlled and connected, the control connection between the two parts does not need to be controlled manually, the automatic operation can reduce the workload of operators.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 6 and fig. 9, the material standing groove 20 has been seted up on the surface at circular plummer 1 top, the inside of material standing groove 20 has been placed the steel-pipe line body 21 of looks adaptation, the output of electric telescopic connecting rod 22 sets up in the top of steel-pipe line body 21, general scraper blade second 25 of polishing and the inner wall cooperation work of steel-pipe line body 21, the material standing groove 20 that adopts in this application is in steel-pipe line body 21 looks adaptation, the operating personnel can change according to specific actual production, electric telescopic connecting rod 22's initial state can be with rotatory urceolus second 24 lifting to the top of steel-pipe line body 21, can not influence the placing of steel-pipe line body 21, avoid the steel-pipe line body 21 to place into the inside inconvenient operation of material standing groove 20, after steel-pipe line body 21 places, alright start electric telescopic connecting rod 22 drive rotatory urceolus second 24 and go deep into the inside of steel-pipe line body 21.

As shown in fig. 1, fig. 2, fig. 3 and fig. 5, the four corners of the bottom surface of the circular bearing table 1 are welded with supporting fixing columns 2, the structural shapes of the four supporting fixing columns 2 are cylindrical, the bottoms of the four supporting fixing columns 2 are provided with matched bottom anti-slip pads 3, the bottoms of the four bottom anti-slip pads 3 are provided with anti-slip patterns, the certain supporting bearing capacity of the device can be improved, meanwhile, the stability of the polishing working is improved, and the translation condition of the device is reduced.

As shown in fig. 1, fig. 3 and fig. 5, the top of the rectangular sliding bearing plate 16 is provided with a speed reducing servo motor 10, the output end of the speed reducing servo motor 10 is fixedly connected with a first rotary fixing rod 11, the outer wall of the first rotary fixing rod 11 is provided with a plurality of groups of transverse connecting fixing rods 12 with the same size, the outer part of the first rotary fixing rod 11 is provided with a corresponding first rotary outer cylinder 13, the other end of the transverse connecting fixing rod 12 is welded on the inner wall of the first rotary outer cylinder 13, the outer wall of the first rotary outer cylinder 13 is welded with a plurality of groups of universal polishing doctor blades 14 with the same size, the first universal polishing doctor blades 14 used in the application are in the prior art, no more than descriptions can be provided here, operators can carry out corresponding improvement on the product in the practical application process, and the first universal polishing doctor blades 14 can be driven to polish the periphery of the outer wall of the steel pipe body 21 through the speed reducing servo motor 10 placed at the top of the rectangular sliding bearing plate 16.

When the steel pipeline polishing device is particularly used, an operator places the steel pipeline body 21 to be polished into the material placing groove 20;

the forward and backward rotation speed reducing motor 5 and the electric telescopic connecting rod 22 are started to work through the work control panel 4, the forward and backward rotation speed reducing motor 5 starts to rotate forward, the round thread lifting sleeve 7 is driven to descend through the thread rotating shaft 6, the rectangular sliding bearing plate 16 is driven to slide in the strip-shaped sliding groove 15 in the descending process of the round thread lifting sleeve 7, the rectangular sliding bearing plate 16 is controlled to be close to a switch controlled by the speed reducing servo motor 10 until the first movable baffle 18 contacts the switch controlled by the speed reducing servo motor 10, the electric telescopic connecting rod 22 starts the speed reducing servo motor 10 after the second rotary outer cylinder 24 is penetrated into the steel pipe body 21, the forward and backward rotation speed reducing motor 5 and the electric telescopic connecting rod 22 are closed through the work control panel 4, and then polishing work is started on the steel pipe body 21;

when the rectangular sliding bearing plate 16 slides in the strip-shaped sliding groove 15, the L-shaped movable fixing rod 37 at the bottom is driven to move towards the inside of the L-shaped fixing pipe 33, and when the movable baffle II 36 approaches to a power switch of the impurity collecting working box 29, the work of the impurity collecting working box 29 is started, so that impurities such as dust generated during polishing work are adsorbed, and the working environment of a processor is improved;

after the steel pipe body 21 finishes polishing, the forward and reverse rotation speed reducing motor 5 and the electric telescopic connecting rod 22 are started to work through the work control panel 4, the forward and reverse rotation speed reducing motor 5 reverses, the round thread lifting sleeve 7 is driven to lift through the thread rotating shaft 6, the rectangular sliding bearing plate 16 is driven to slide in the strip-shaped sliding groove 15 in the lifting process of the round thread lifting sleeve 7, the rectangular sliding bearing plate 16 is controlled to be far away from the speed reducing servo motor 10 until the first movable baffle 18 leaves the speed reducing servo motor 10 to control the switch, the speed reducing servo motor 10 is closed, polishing of the steel pipe body 21 is stopped, the electric telescopic connecting rod 22 drives the second rotary outer cylinder 24 to be pulled out from the steel pipe body 21, the L-shaped movable fixing rod 37 moves towards the outer part of the L-shaped fixing tube 33 along with the movement of the rectangular sliding bearing plate 16, and when the second movable baffle 36 leaves the power switch of the impurity collecting working box 29, the working of the impurity collecting working box 29 is closed, and accordingly the forward and reverse rotation speed reducing motor 5 and the electric telescopic connecting rod 22 are closed.

The whole working flow of the invention is just the above, and the step is repeated when the invention is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (10)

1. The utility model provides a glass steel pipeline processing is with surface grinding device which characterized in that: including circular plummer (1), circular top backup pad (28), elevating system (38), work closing mechanism (39) and dust absorption mechanism (40), work closing mechanism (39) have been seted up on the surface at circular plummer (1) top, the bottom surface of circular plummer (1) is equipped with elevating system (38), the top of circular top backup pad (28) is equipped with dust absorption mechanism (40).

2. The surface polishing device for glass fiber reinforced plastic pipeline processing according to claim 1, wherein: work closing mechanism (39) are including bar spout (15), rectangle slip loading board (16), tension spring (17), remove baffle (18) and gear reduction servo motor control switch (19), bar spout (15) have been seted up on the surface at circular loading board (1) top, rectangle slip loading board (16) of looks adaptation have been placed to the inside of bar spout (15), tension spring (17) are installed to one side of rectangle slip loading board (16) outer wall, remove baffle (18) are installed to the other end of tension spring (17), the bottom of removing baffle (18) slides in the inside of bar spout (15), gear reduction servo motor control switch (19) are installed to one side of bar spout (15) inner wall.

3. The surface polishing device for glass fiber reinforced plastic pipeline processing according to claim 2, wherein: the top of rectangle slip loading board (16) is equipped with speed reduction servo motor (10), the output fixedly connected with rotation dead lever (11) of speed reduction servo motor (10), the outer wall of rotation dead lever (11) is equipped with a plurality of group's of size the same transverse connection dead lever (12), the outside of rotation dead lever (11) is equipped with rotatory urceolus (13) of looks adaptation, the other end welding of transverse connection dead lever (12) is in the inner wall of rotatory urceolus (13), the outer wall welding of rotatory urceolus (13) has a plurality of group's of size the same general doctor blade (14) of polishing.

4. A surface grinding device for glass fiber reinforced plastic pipeline processing according to claim 3, wherein: lifting control mechanism (38) are including positive and negative rotation gear motor (5), circular screw thread lift cover (7), connection stretching rod (9) and electric telescopic connecting rod (22), the centre of circular plummer (1) bottom is equipped with positive and negative rotation gear motor (5), the output of positive and negative rotation gear motor (5) runs through the bottom of circular plummer (1) and extends to the top of circular plummer (1), the output fixedly connected with screw thread axis of rotation (6) of positive and negative rotation gear motor (5), the outer wall cover of screw thread axis of rotation (6) is equipped with matched with fixation nut (8), the outer wall cover of fixation nut (8) is equipped with circular screw thread lift cover (7), the outer wall of circular screw thread lift cover (7) is equipped with connection stretching rod (9), the other end welding of connection stretching rod (9) is in the one end on rectangle slip loading board (16) top surface.

5. The surface polishing device for glass fiber reinforced plastic pipeline processing as set forth in claim 4, wherein: the structure shape of electric telescopic connecting rod (22) sets up to L shape, the stiff end welding of electric telescopic connecting rod (22) is in the bottom surface of circular plummer (1), the flexible end of electric telescopic connecting rod (22) is equipped with circular loss prevention baffle (26), the bottom of circular loss prevention baffle (26) is equipped with gear motor (10), the output fixedly connected with rotation dead lever two (23) of gear motor (10), the outer wall cover of rotation dead lever two (23) is equipped with matched with rotatory urceolus two (24), the outer wall welding of rotatory urceolus two (24) has a plurality of groups of general scraping blade two (25) that polish that the size is the same.

6. The surface polishing device for glass fiber reinforced plastic pipeline processing according to claim 5, wherein: the utility model discloses a steel pipe body, including circular plummer (1), material standing groove (20) have been seted up on the surface at circular plummer (1) top, steel pipe body (21) of looks adaptation have been placed to the inside of material standing groove (20), the output of electronic flexible connecting rod (22) sets up in the top of steel pipe body (21), general scraper blade second (25) of polishing and the inner wall cooperation work of steel pipe body (21).

7. The surface polishing device for glass fiber reinforced plastic pipeline processing as set forth in claim 6, wherein: the dust collection mechanism (40) comprises a fixed sleeve pipe (27), an impurity collection working box (29), an impurity conveying connecting pipe (30), a rectangular dust collection cover (31) and a pipe fitting through hole (32), wherein the impurity collection working box (29) is arranged at the top of a round top supporting plate (28), the pipe fitting through hole (32) matched with the impurity conveying connecting pipe (30) is formed in the bottom of the round top supporting plate (28), the impurity conveying connecting pipe (30) is communicated with the bottom of the impurity collection working box (29), and the other end of the impurity conveying connecting pipe (30) is communicated with the inside of the rectangular dust collection cover (31).

8. The surface polishing device for glass fiber reinforced plastic pipeline processing as set forth in claim 7, wherein: the one end of circular plummer (1) bottom is equipped with L shape fixed pipe (33), the inside of L shape fixed pipe (33) is equipped with switch (34) of impurity collection work box, the bottom of rectangle slip loading board (16) is equipped with L shape removal dead lever (37) with the internal diameter looks adaptation of L shape fixed pipe (33), one side of L shape removal dead lever (37) outer wall is equipped with extension spring two (35), the other end of extension spring two (35) is equipped with and removes baffle two (36).

9. The surface polishing device for glass fiber reinforced plastic pipeline processing as set forth in claim 8, wherein: the utility model discloses a motor vehicle speed reduction device, including circular plummer (1), work control panel (4) is installed to one side of circular plummer (1) outer wall, positive and negative rotation gear motor (5) and electric telescopic connecting rod (22) are all through conducting wire and work control panel (4) electric connection, the switch (34) of impurity collection work case and impurity collection work case (29) are through conducting wire electric connection, through conducting wire electric connection between gear servo motor (10) and gear servo motor control switch (19).

10. The surface polishing device for glass fiber reinforced plastic pipeline processing as set forth in claim 9, wherein: the bottom surface four corners of circular plummer (1) all welds and supports fixed column (2), four the structural shape that supports fixed column (2) sets up to cylindrically, four the bottom that supports fixed column (2) all is equipped with looks adaptation bottom slipmat (3), four the bottom of bottom slipmat (3) all is equipped with the anti-skidding line.

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